Environmental assessment of industrial production of microalgal biodiesel in central-south Chile

[1]  R. Guillard,et al.  Studies of marine planktonic diatoms. I. Cyclotella nana Hustedt, and Detonula confervacea (cleve) Gran. , 1962, Canadian journal of microbiology.

[2]  R. Kleijn,et al.  Numerical approaches towards life cycle interpretation five examples , 2001 .

[3]  N. Nakicenovic World Energy Outlook 2007: China and India Insights , 2007 .

[4]  Arnaud Hélias,et al.  Life-cycle assessment of biodiesel production from microalgae. , 2009, Environmental science & technology.

[5]  Teresa M. Mata,et al.  Microalgae for biodiesel production and other applications: A review , 2010 .

[6]  L. Laurens,et al.  Microalgae as biodiesel & biomass feedstocks: Review & analysis of the biochemistry, energetics & economics , 2010 .

[7]  T. Mata,et al.  Sustainable Production of Biodiesel from Tallow, Lard and Poultry Fat and Its Quality Evaluation , 2010 .

[8]  Susan E. Powers,et al.  Sustainable Algae Biodiesel Production in Cold Climates , 2010 .

[9]  C. Howe,et al.  Life-Cycle Assessment of Potential Algal Biodiesel Production in the United Kingdom: A Comparison of Raceways and Air-Lift Tubular Bioreactors , 2010 .

[10]  Thomas H. Bradley,et al.  Net energy and greenhouse gas emission evaluation of biodiesel derived from microalgae. , 2010, Environmental science & technology.

[11]  Q. Hu,et al.  Life-cycle analysis on biodiesel production from microalgae: water footprint and nutrients balance. , 2011, Bioresource technology.

[12]  L. Lardon,et al.  Life-cycle assessment of microalgae culture coupled to biogas production. , 2011, Bioresource technology.

[13]  Mark A. White,et al.  Environmental impacts of algae-derived biodiesel and bioelectricity for transportation. , 2011, Environmental science & technology.

[14]  Hsien Hui Khoo,et al.  Life cycle energy and CO2 analysis of microalgae-to-biodiesel: preliminary results and comparisons. , 2011, Bioresource technology.

[15]  Jian Hou,et al.  Life cycle assessment of biodiesel from soybean, jatropha and microalgae in China conditions , 2011 .

[16]  Julie B Zimmerman,et al.  Combinatorial life cycle assessment to inform process design of industrial production of algal biodiesel. , 2011, Environmental science & technology.

[17]  D. Batten,et al.  Life cycle assessment of biodiesel production from microalgae in ponds. , 2011, Bioresource technology.

[18]  Teresa M. Mata,et al.  Sustainability considerations of biodiesel based on supply chain analysis , 2011 .

[19]  Michael Q. Wang,et al.  Methane and nitrous oxide emissions affect the life-cycle analysis of algal biofuels , 2012 .

[20]  Teresa M. Mata,et al.  Microalgae processing for biodiesel production , 2012 .

[21]  Carole A. Llewellyn,et al.  A low energy process for the recovery of bioproducts from cyanobacteria using a ball mill , 2012 .

[22]  S. Sikdar,et al.  Sustainability Considerations about Microalgae for Biodiesel Production , 2013 .

[23]  T. Mata,et al.  Lipids content and productivities of Arthrospira platensis and Chlorella vulgaris under salinity stress and mixotrophic growth conditions , 2013 .

[24]  A. Martins,et al.  Valorization of Waste Frying Oils and Animal Fats for Biodiesel Production , 2013 .

[25]  Jefferson W. Tester,et al.  Quantitative uncertainty analysis of Life Cycle Assessment for algal biofuel production. , 2013, Environmental science & technology.

[26]  Arnaud Hélias,et al.  Biodiesel from microalgae - life cycle assessment and recommendations for potential improvements. , 2014 .

[27]  M. T. Moreira,et al.  Environmental evaluation of eicosapentaenoic acid production by Phaeodactylum tricornutum. , 2014, The Science of the total environment.

[28]  S. Scott,et al.  Life cycle assessment on microalgal biodiesel production using a hybrid cultivation system. , 2014, Bioresource technology.

[29]  Teresa M. Mata,et al.  Properties and sustainability of biodiesel from animal fats and fish oil , 2014 .

[30]  C.L.M. de Visser,et al.  AlgaeEconomics: bio-economic production models of micro-algae and downstream processing to produce bio energy carriers , 2015 .

[31]  Cristián P. Bravo-Fritz,et al.  Site selection for microalgae farming on an industrial scale in Chile , 2015 .

[32]  M. Paneque,et al.  Ethics and Biofuel Production in Chile , 2015 .

[33]  A. Azapagic,et al.  Carbon capture, storage and utilisation technologies: A critical analysis and comparison of their life cycle environmental impacts , 2015 .

[34]  Mark A. J. Huijbregts,et al.  ReCiPe2016: a harmonised life cycle impact assessment method at midpoint and endpoint level , 2016, The International Journal of Life Cycle Assessment.

[35]  Gregor Wernet,et al.  The ecoinvent database version 3 (part I): overview and methodology , 2016, The International Journal of Life Cycle Assessment.

[36]  A. Martins,et al.  Lipid Content and Productivity of Arthrospira platensis and Chlorella vulgaris under Mixotrophic Conditions and Salinity Stress , 2016 .

[37]  A. Martins,et al.  Sustainability Evaluation of Biodiesel from Arthrospira Platensis and Chlorella Vulgaris Under Mixotrophic Conditions and Salinity Stress , 2016 .

[38]  Teresa M. Mata,et al.  Potential of Phaeodactylum tricornutum for Biodiesel Production under Natural Conditions in Chile , 2017 .

[39]  Akash Patel,et al.  Microalgae: Antiquity to era of integrated technology , 2017 .

[40]  M. Freitas,et al.  Analyzing Phaeodactylum tricornutum lipid profile for biodiesel production , 2017 .

[41]  F. G. Üçtuğ,et al.  Life Cycle Assessment of Biodiesel Production from Microalgae: A Mass and Energy Balance Approach in Order to Compare Conventional with in Situ Transesterification , 2017 .

[42]  Maria J. Barbosa,et al.  Comparative life cycle assessment of real pilot reactors for microalgae cultivation in different seasons , 2017 .

[43]  Teresa M. Mata,et al.  New Trends in Energy Production and Utilization , 2017 .

[44]  K. Kyriakopoulou,et al.  Environmental impact of phycocyanin recovery from Spirulina platensis cyanobacterium , 2017 .

[45]  A. Martins,et al.  Life cycle assessment tool of electricity generation in Portugal , 2018, Environment, Development and Sustainability.

[46]  A. Martins,et al.  Phaeodactylum tricornutum derived biosilica purification for energy applications , 2018, Energy Procedia.

[47]  R. Schneider,et al.  Life cycle assessment of microalgae production in a raceway pond with alternative culture media , 2018, Algal Research.

[48]  V. V. Vieira,et al.  Water footprint of microalgae cultivation in photobioreactor , 2018, Energy Procedia.

[49]  Jo‐Shu Chang,et al.  Economic and life-cycle greenhouse gas optimization of microalgae-to-biofuels chains. , 2018, Bioresource technology.

[50]  S. Mudliar,et al.  Comparative life cycle assessment of microalgae-mediated CO2 capture in open raceway pond and airlift photobioreactor system , 2018, Clean Technologies and Environmental Policy.

[51]  T. Tsoutsos,et al.  Life cycle assessment of algae‐to‐biodiesel shallow pond production systems in the Mediterranean: influence of species, pond type, by(co)‐product valorisation and electricity mix , 2018 .

[52]  A. Martins,et al.  Biochemical characterization of Phaeodactylum tricornutum for microalgae-based biorefinery , 2018, Energy Procedia.

[53]  E. Jacob‐Lopes,et al.  Life Cycle Assessment (LCA) of Third-Generation Biodiesel Produced Heterotrophically by Phormidium Autumnale , 2018, The Open Biotechnology Journal.

[54]  Maneesh Kumar Mediboyina,et al.  Comparative life cycle assessment of autotrophic cultivation of Scenedesmus dimorphus in raceway pond coupled to biodiesel and biogas production , 2019, Bioprocess and Biosystems Engineering.

[55]  S. Gelcich,et al.  Chile: Environmental Status and Future Perspectives , 2019, World Seas: an Environmental Evaluation.

[56]  Jason C. Quinn,et al.  Sustainability of carbon delivery to an algal biorefinery: A techno-economic and life-cycle assessment , 2019, Journal of CO2 Utilization.

[57]  O. Bernard,et al.  Optimal integration of microalgae production with photovoltaic panels: environmental impacts and energy balance , 2019, Biotechnology for Biofuels.

[58]  A. Martins,et al.  A life cycle inventory of microalgae-based biofuels production in an industrial plant concept , 2020, Energy Reports.